Based on Origin-
1-primary Meristem
2-Secondary Meristem
Based on Location-
1-Apical Meristem
2-Lateral meristem
3-Intercalary Meristem
Based on Develpoment-
1-Dermatogen
2-Periblem
3-Plerome
Based on Plane of Division-
1-mass
2-Rib
3-Plate
Apical meristem is responsible for primary root and stem growth in vascular plants.
The root apical meristem, is an area of rapidly dividing cells. It will replace the cells of the root cap as they wear away and push cells above them that will develop into the main tissues of the plant.
The tip of the terminal bud in the area called the apical meristem. The cell divisions are responsible for the stem's growth in length.
Secondary Growth: Increases the girth of a stem it is caused by the vascular and cork cambium.
Vascular Cambium: meristematic parenchyma produces xylem on the inside and phloem on its outer side. The secondary xylem accumulates and forms the wood. The secondary phloem does not accumulate and is sloughed off with the bark.
Cork Cambium: forms in the outer cortex. Produces cork and epidermal tissues.
in the tip of a stem or root
and also as vascular cambium and intercallary meristem
Meristematic tissues are cells in plants that have the ability to divide. They are small, thin, and are found in tips of roots, stems, in buds, and in the pericycle of roots.
tips of roots and stems
Only undifferentiated cells are found in meristematic tissue
meristematic
Plant tissue systems fall into one of two general types: meristematic tissue and permanent (or non-meristematic) tissue. Cells of the meristematic tissue are found in meristems, which are plant regions of continuous cell division and growth.
meristematic tissue
The tissue that is responsible for a plant's unceasing growth is the meristematic tissue. It is also known as growing tip and is located in the buds. It contains undifferentiated cells that promote growth.
They are meristematic cambium cells located in a layer just inside the bark of trees and shrubs.
Only undifferentiated cells are found in meristematic tissue
meristematic
Meristematic tissues have the capacity to divide while permanent tissue lost the capacity of division. Meristematic tissue have thin cellulose walls while permanent tissue has a thick cellulose wall.
Plant tissue systems fall into one of two general types: meristematic tissue and permanent (or non-meristematic) tissue. Cells of the meristematic tissue are found in meristems, which are plant regions of continuous cell division and growth.
meristematic tissue
Meristematic tissue .
The tissue that is responsible for a plant's unceasing growth is the meristematic tissue. It is also known as growing tip and is located in the buds. It contains undifferentiated cells that promote growth.
Meristematic tissue has ability to divide more than that of a permanent tissue.... A permanent tissue is completely differentiated and does not usually divide further
It is still growing.
Meristematic tissue
Meristematic tissue is the only plant tissue that produces new cells in mitosis.